Available versions




Rittal_PDU 1Phase EN

Description

IT Infrastructure Monitoring.

Overview

Template for Rittal PDU 7955 1-phase (4.4) and 3-pases (5.0) with sensors (temperature, humidity, input, etc.)

Author

RPW

Macros used

There are no macros links in this template.

Name
Template Module ICMP Ping
Template Module Generic SNMP

Discovery rules

Name Description Type Key and additional info
Discovery Analog <p>-</p> SNMP agent cmcIIIVarName.Analog<p>Update: 1h</p>
Discovery Unit Energy <p>-</p> SNMP agent cmcIIIVarName.Unit.Energy<p>Update: 1h</p>
Phase L1 Power <p>-</p> SNMP agent cmcIIIVarName.PhaseL1.Power<p>Update: 1h</p>
Energy Meter 2 <p>-</p> SNMP agent cmcIIIVarName.EnergyMeter2<p>Update: 1h</p>
Phase L1 Energy <p>-</p> SNMP agent cmcIIIVarName.PhaseL1.Energy<p>Update: 1h</p>
Discovery Input 1 <p>-</p> SNMP agent cmcIIIVarName.Input1<p>Update: 1h</p>
Discovery Humidity <p>-</p> SNMP agent cmcIIIVarName.Humidity<p>Update: 1h</p>
Discovery Leakage <p>-</p> SNMP agent cmcIIIVarName.Leakage<p>Update: 1h</p>
Discovery cmsIIIVarName Settings <p>-</p> SNMP agent cmsIIIVarNames.WalkSNMP<p>Update: 1h</p>
Discovery Unit Power <p>-</p> SNMP agent cmcIIIVarName.Unit.Power<p>Update: 1h</p>
Discovery Climate <p>-</p> SNMP agent cmcIIIVarName.Climate<p>Update: 1h</p>
Discovery Access <p>-</p> SNMP agent cmcIIIVarName.Access<p>Update: 1h</p>
Discovery Temperature <p>-</p> SNMP agent cmcIIIVarName.Temperature<p>Update: 1h</p>
Energy Meter 1 <p>-</p> SNMP agent cmcIIIVarName.EnergyMeter1<p>Update: 1h</p>
Discovery Input 2 <p>-</p> SNMP agent cmcIIIVarName.Input2<p>Update: 1h</p>

Items collected

Name Description Type Key and additional info
Serial number <p>-</p> SNMP agent entPhysicalSerialNum<p>Update: 1h</p>
Firmware <p>-</p> SNMP agent entPhysicalSoftwareRev<p>Update: 1h</p>
Analog DescName <p>-</p> SNMP agent cmcIIIVarValueStrg.Analog.DescName[{#SNMPINDEX}]<p>Update: 1h</p><p>LLD</p>
Analog Status - AirFlow <p>-</p> SNMP agent cmcIIIVarValueStrg.Analog.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Unit Energie Custom kWh <p>-</p> SNMP agent Unit.Energy.Active.Custom.Value[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Unit Energie Runtime <p>-</p> SNMP agent Unit.Energy.Active.Runtime.Value[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Unit Energie Active kWh <p>-</p> SNMP agent Unit.Energy.Active.Value[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Phase L1 Current Status <p>-</p> SNMP agent cmcIIIVarValueInt.PhaseL1.Current.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Phase L1 Current Value <p>-</p> SNMP agent cmcIIIVarValueInt.PhaseL1.Current.Value[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Phase L1 Power Active Status <p>-</p> SNMP agent cmcIIIVarValueInt.PhaseL1.Power.Active.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Phase L1 Power Active Value <p>-</p> SNMP agent cmcIIIVarValueInt.PhaseL1.Power.Active.Value[{#SNMPINDEX}]<p>Update: 5m</p><p>LLD</p>
Phase L1 Voltage Status <p>-</p> SNMP agent cmcIIIVarValueInt.PhaseL1.Voltage.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Phase L1 Voltage Value <p>-</p> SNMP agent cmcIIIVarValueInt.PhaseL1.Voltage.Value[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Energy Meter 2 status <p>-</p> SNMP agent cmcIIIVarValueStrg.EnergyMeter2.Status[{#SNMPINDEX}]<p>Update: 10m</p><p>LLD</p>
Energy Meter 2 value <p>-</p> SNMP agent cmcIIIVarValueStrg.EnergyMeter2.Value[{#SNMPINDEX}]<p>Update: 5m</p><p>LLD</p>
L1 Energy Active Custom Value <p>-</p> SNMP agent cmcIIIVarValueInt.L1.Energy.Active.Custom.Value<p>Update: 5m</p><p>LLD</p>
L1 Energy Active Value <p>-</p> SNMP agent cmcIIIVarValueInt.L1.Energy.Active.Value<p>Update: 5m</p><p>LLD</p>
L1 Energy Apparent Value <p>-</p> SNMP agent cmcIIIVarValueInt.L1.Energy.Apparent.Value<p>Update: 5m</p><p>LLD</p>
Input 1.DescName <p>-</p> SNMP agent cmcIIIVarStrg.Input1.DescName[{#SNMPINDEX}]<p>Update: 1h</p><p>LLD</p>
Input 1 Status <p>-</p> SNMP agent cmcIIIVarStrg.Input1.Status[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Input 1 Value <p>-</p> SNMP agent cmcIIIVarStrg.Input1.Value[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Humidity Status <p>-</p> SNMP agent cmcIIIVarValueInt.Humidity.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Humidity Value <p>-</p> SNMP agent cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}]<p>Update: 10m</p><p>LLD</p>
Leakage Status <p>-</p> SNMP agent cmcIIIVarValueInt.Leakage.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
$1 <p>-</p> SNMP agent Walk-SNMP[{#SNMPVALUE} ({#SNMPINDEX})]<p>Update: 1m</p><p>LLD</p>
Unit Power Active Status <p>-</p> SNMP agent Unit.Power.Active.Status[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Unit Power Active Value <p>-</p> SNMP agent Unit.Power.Active.Value[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Climate Status <p>-</p> SNMP agent cmcIIIVarValueInt.Climate[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Door status <p>-</p> SNMP agent cmcIIIVarValueInt.Access.Status<p>Update: 1m</p><p>LLD</p>
Access DescName <p>-</p> SNMP agent cmcIIIVarValueStrg.Access.DescName<p>Update: 1h</p><p>LLD</p>
Temperature Status <p>-</p> SNMP agent cmcIIIVarValueInt.Temperature.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Temperature Value <p>-</p> SNMP agent cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Energy Meter 1 status <p>-</p> SNMP agent cmcIIIVarValueStrg.EnergyMeter1.Status[{#SNMPINDEX}]<p>Update: 10m</p><p>LLD</p>
Energy Meter 1 value <p>-</p> SNMP agent cmcIIIVarValueStrg.EnergyMeter1.Value[{#SNMPINDEX}]<p>Update: 5m</p><p>LLD</p>
Input 2.DescName <p>-</p> SNMP agent cmcIIIVarStrg.Input2.DescName[{#SNMPINDEX}]<p>Update: 1h</p><p>LLD</p>
Input 2 Status <p>-</p> SNMP agent cmcIIIVarStrg.Input2.Status[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Input 2 Value <p>-</p> SNMP agent cmcIIIVarStrg.Input2.Value[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>

Triggers

Name Description Expression Priority
Open door warning <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Access.Status.last()}<>13</p><p>Recovery expression: </p> warning
AirFlow Status alarm <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueStrg.Analog.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Climate alarm HIGH {ITEM.LASTVALUE} <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Climate[{#SNMPINDEX}].last()}>=40</p><p>Recovery expression: </p> disaster
Climate alarm {ITEM.LASTVALUE} <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Climate[{#SNMPINDEX}].last()}>=35</p><p>Recovery expression: </p> high
Alarm Humidity Status <p>The humidity status is not OK</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Humidity Above Normal {ITEM.LASTVALUE} <p>The humidity is above normal</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}>75 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}<80</p><p>Recovery expression: </p> average
Humidity Below Normal {ITEM.LASTVALUE} <p>The humidity is below normal</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}<=30 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}>25</p><p>Recovery expression: </p> average
Humidity Very Above Normal {ITEM.LASTVALUE} <p>Humidity is too high</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}>=80</p><p>Recovery expression: </p> high
Humidity Very Below Normal {ITEM.LASTVALUE} <p>Humidity is too low</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}<=25</p><p>Recovery expression: </p> high
Input 1 status alarm <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input1.Status[{#SNMPINDEX}].last()}=4 and {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input1.Value[{#SNMPINDEX}].last()}<>1</p><p>Recovery expression: </p> high
Input 2 status alarm <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input2.Status[{#SNMPINDEX}].last()}=4 and {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input2.Value[{#SNMPINDEX}].last()}<>1</p><p>Recovery expression: </p> high
Alarm Leakage Status <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Leakage.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> disaster
Alarm Current Status Phase L1 <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.PhaseL1.Current.Status[{#SNMPINDEX}].last()}<>10</p><p>Recovery expression: </p> high
Alarm Power Status Phase L1 <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.PhaseL1.Current.Status[{#SNMPINDEX}].last()}<>10</p><p>Recovery expression: </p> high
Alarm Voltage Status Phase L1 <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.PhaseL1.Voltage.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Temparture status alarm <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Temperature Above Normal {ITEM.LASTVALUE}°C <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}>=25 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}<26</p><p>Recovery expression: </p> average
Temperature Below Normal {ITEM.LASTVALUE}°C <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}<=15 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}>13</p><p>Recovery expression: </p> average
Temperature Far Below Normal {ITEM.LASTVALUE}°C <p>Temperature too low</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}<=13</p><p>Recovery expression: </p> high
Temperature Very Above Normal {ITEM.LASTVALUE}°C <p>Temperature too high</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}>=26</p><p>Recovery expression: </p> high
PDU has been restartet (uptime < 5m) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:Unit.Energy.Active.Runtime.Value[{#SNMPINDEX}].last()}<5m</p><p>Recovery expression: </p> average
Alarm Unit Power Active Status <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:Unit.Power.Active.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> disaster
{HOST.NAME} $1 <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:Walk-SNMP[{#SNMPVALUE} ({#SNMPINDEX})].str(OK)}<>1</p><p>Recovery expression: </p> disaster
AirFlow Status alarm (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueStrg.Analog.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
PDU has been restartet (uptime < 5m) (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:Unit.Energy.Active.Runtime.Value[{#SNMPINDEX}].last()}<5m</p><p>Recovery expression: </p> average
Alarm Current Status Phase L1 (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.PhaseL1.Current.Status[{#SNMPINDEX}].last()}<>10</p><p>Recovery expression: </p> high
Alarm Power Status Phase L1 (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.PhaseL1.Current.Status[{#SNMPINDEX}].last()}<>10</p><p>Recovery expression: </p> high
Alarm Voltage Status Phase L1 (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.PhaseL1.Voltage.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Input 1 status alarm (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input1.Status[{#SNMPINDEX}].last()}=4 and {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input1.Value[{#SNMPINDEX}].last()}<>1</p><p>Recovery expression: </p> high
Alarm Humidity Status (LLD) <p>The humidity status is not OK</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Humidity Above Normal {ITEM.LASTVALUE} (LLD) <p>The humidity is above normal</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}>75 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}<80</p><p>Recovery expression: </p> average
Humidity Below Normal {ITEM.LASTVALUE} (LLD) <p>The humidity is below normal</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}<=30 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}>25</p><p>Recovery expression: </p> average
Humidity Very Above Normal {ITEM.LASTVALUE} (LLD) <p>Humidity is too high</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}>=80</p><p>Recovery expression: </p> high
Humidity Very Below Normal {ITEM.LASTVALUE} (LLD) <p>Humidity is too low</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}<=25</p><p>Recovery expression: </p> high
Alarm Leakage Status (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Leakage.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> disaster
{HOST.NAME} $1 (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:Walk-SNMP[{#SNMPVALUE} ({#SNMPINDEX})].str(OK)}<>1</p><p>Recovery expression: </p> disaster
Alarm Unit Power Active Status (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:Unit.Power.Active.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> disaster
Climate alarm HIGH {ITEM.LASTVALUE} (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Climate[{#SNMPINDEX}].last()}>=40</p><p>Recovery expression: </p> disaster
Climate alarm {ITEM.LASTVALUE} (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Climate[{#SNMPINDEX}].last()}>=35</p><p>Recovery expression: </p> high
Open door warning (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Access.Status.last()}<>13</p><p>Recovery expression: </p> warning
Temparture status alarm (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Temperature Above Normal {ITEM.LASTVALUE}°C (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}>=25 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}<26</p><p>Recovery expression: </p> average
Temperature Below Normal {ITEM.LASTVALUE}°C (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}<=15 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}>13</p><p>Recovery expression: </p> average
Temperature Far Below Normal {ITEM.LASTVALUE}°C (LLD) <p>Temperature too low</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}<=13</p><p>Recovery expression: </p> high
Temperature Very Above Normal {ITEM.LASTVALUE}°C (LLD) <p>Temperature too high</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}>=26</p><p>Recovery expression: </p> high
Input 2 status alarm (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input2.Status[{#SNMPINDEX}].last()}=4 and {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input2.Value[{#SNMPINDEX}].last()}<>1</p><p>Recovery expression: </p> high

Rittal_PDU 1Phase EN

Description

IT Infrastructure Monitoring.

Overview

Template for Rittal PDU 7955 1-phase (4.4) and 3-pases (5.0) with sensors (temperature, humidity, input, etc.)

Author

RPW

Macros used

There are no macros links in this template.

Name
Template Module ICMP Ping
Template Module Generic SNMP

Discovery rules

Name Description Type Key and additional info
Discovery Analog <p>-</p> SNMP agent cmcIIIVarName.Analog<p>Update: 1h</p>
Discovery Unit Energy <p>-</p> SNMP agent cmcIIIVarName.Unit.Energy<p>Update: 1h</p>
Phase L1 Power <p>-</p> SNMP agent cmcIIIVarName.PhaseL1.Power<p>Update: 1h</p>
Energy Meter 2 <p>-</p> SNMP agent cmcIIIVarName.EnergyMeter2<p>Update: 1h</p>
Phase L1 Energy <p>-</p> SNMP agent cmcIIIVarName.PhaseL1.Energy<p>Update: 1h</p>
Discovery Input 1 <p>-</p> SNMP agent cmcIIIVarName.Input1<p>Update: 1h</p>
Discovery Humidity <p>-</p> SNMP agent cmcIIIVarName.Humidity<p>Update: 1h</p>
Discovery Leakage <p>-</p> SNMP agent cmcIIIVarName.Leakage<p>Update: 1h</p>
Discovery cmsIIIVarName Settings <p>-</p> SNMP agent cmsIIIVarNames.WalkSNMP<p>Update: 1h</p>
Discovery Unit Power <p>-</p> SNMP agent cmcIIIVarName.Unit.Power<p>Update: 1h</p>
Discovery Climate <p>-</p> SNMP agent cmcIIIVarName.Climate<p>Update: 1h</p>
Discovery Access <p>-</p> SNMP agent cmcIIIVarName.Access<p>Update: 1h</p>
Discovery Temperature <p>-</p> SNMP agent cmcIIIVarName.Temperature<p>Update: 1h</p>
Energy Meter 1 <p>-</p> SNMP agent cmcIIIVarName.EnergyMeter1<p>Update: 1h</p>
Discovery Input 2 <p>-</p> SNMP agent cmcIIIVarName.Input2<p>Update: 1h</p>

Items collected

Name Description Type Key and additional info
Serial number <p>-</p> SNMP agent entPhysicalSerialNum<p>Update: 1h</p>
Firmware <p>-</p> SNMP agent entPhysicalSoftwareRev<p>Update: 1h</p>
Analog DescName <p>-</p> SNMP agent cmcIIIVarValueStrg.Analog.DescName[{#SNMPINDEX}]<p>Update: 1h</p><p>LLD</p>
Analog Status - AirFlow <p>-</p> SNMP agent cmcIIIVarValueStrg.Analog.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Unit Energie Custom kWh <p>-</p> SNMP agent Unit.Energy.Active.Custom.Value[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Unit Energie Runtime <p>-</p> SNMP agent Unit.Energy.Active.Runtime.Value[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Unit Energie Active kWh <p>-</p> SNMP agent Unit.Energy.Active.Value[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Phase L1 Current Status <p>-</p> SNMP agent cmcIIIVarValueInt.PhaseL1.Current.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Phase L1 Current Value <p>-</p> SNMP agent cmcIIIVarValueInt.PhaseL1.Current.Value[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Phase L1 Power Active Status <p>-</p> SNMP agent cmcIIIVarValueInt.PhaseL1.Power.Active.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Phase L1 Power Active Value <p>-</p> SNMP agent cmcIIIVarValueInt.PhaseL1.Power.Active.Value[{#SNMPINDEX}]<p>Update: 5m</p><p>LLD</p>
Phase L1 Voltage Status <p>-</p> SNMP agent cmcIIIVarValueInt.PhaseL1.Voltage.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Phase L1 Voltage Value <p>-</p> SNMP agent cmcIIIVarValueInt.PhaseL1.Voltage.Value[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Energy Meter 2 status <p>-</p> SNMP agent cmcIIIVarValueStrg.EnergyMeter2.Status[{#SNMPINDEX}]<p>Update: 10m</p><p>LLD</p>
Energy Meter 2 value <p>-</p> SNMP agent cmcIIIVarValueStrg.EnergyMeter2.Value[{#SNMPINDEX}]<p>Update: 5m</p><p>LLD</p>
L1 Energy Active Custom Value <p>-</p> SNMP agent cmcIIIVarValueInt.L1.Energy.Active.Custom.Value<p>Update: 5m</p><p>LLD</p>
L1 Energy Active Value <p>-</p> SNMP agent cmcIIIVarValueInt.L1.Energy.Active.Value<p>Update: 5m</p><p>LLD</p>
L1 Energy Apparent Value <p>-</p> SNMP agent cmcIIIVarValueInt.L1.Energy.Apparent.Value<p>Update: 5m</p><p>LLD</p>
Input 1.DescName <p>-</p> SNMP agent cmcIIIVarStrg.Input1.DescName[{#SNMPINDEX}]<p>Update: 1h</p><p>LLD</p>
Input 1 Status <p>-</p> SNMP agent cmcIIIVarStrg.Input1.Status[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Input 1 Value <p>-</p> SNMP agent cmcIIIVarStrg.Input1.Value[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Humidity Status <p>-</p> SNMP agent cmcIIIVarValueInt.Humidity.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Humidity Value <p>-</p> SNMP agent cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}]<p>Update: 10m</p><p>LLD</p>
Leakage Status <p>-</p> SNMP agent cmcIIIVarValueInt.Leakage.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
$1 <p>-</p> SNMP agent Walk-SNMP[{#SNMPVALUE} ({#SNMPINDEX})]<p>Update: 1m</p><p>LLD</p>
Unit Power Active Status <p>-</p> SNMP agent Unit.Power.Active.Status[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Unit Power Active Value <p>-</p> SNMP agent Unit.Power.Active.Value[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Climate Status <p>-</p> SNMP agent cmcIIIVarValueInt.Climate[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Door status <p>-</p> SNMP agent cmcIIIVarValueInt.Access.Status<p>Update: 1m</p><p>LLD</p>
Access DescName <p>-</p> SNMP agent cmcIIIVarValueStrg.Access.DescName<p>Update: 1h</p><p>LLD</p>
Temperature Status <p>-</p> SNMP agent cmcIIIVarValueInt.Temperature.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Temperature Value <p>-</p> SNMP agent cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Energy Meter 1 status <p>-</p> SNMP agent cmcIIIVarValueStrg.EnergyMeter1.Status[{#SNMPINDEX}]<p>Update: 10m</p><p>LLD</p>
Energy Meter 1 value <p>-</p> SNMP agent cmcIIIVarValueStrg.EnergyMeter1.Value[{#SNMPINDEX}]<p>Update: 5m</p><p>LLD</p>
Input 2.DescName <p>-</p> SNMP agent cmcIIIVarStrg.Input2.DescName[{#SNMPINDEX}]<p>Update: 1h</p><p>LLD</p>
Input 2 Status <p>-</p> SNMP agent cmcIIIVarStrg.Input2.Status[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Input 2 Value <p>-</p> SNMP agent cmcIIIVarStrg.Input2.Value[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>

Triggers

Name Description Expression Priority
Open door warning <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Access.Status.last()}<>13</p><p>Recovery expression: </p> warning
AirFlow Status alarm <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueStrg.Analog.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Climate alarm HIGH {ITEM.LASTVALUE} <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Climate[{#SNMPINDEX}].last()}>=40</p><p>Recovery expression: </p> disaster
Climate alarm {ITEM.LASTVALUE} <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Climate[{#SNMPINDEX}].last()}>=35</p><p>Recovery expression: </p> high
Alarm Humidity Status <p>The humidity status is not OK</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Humidity Above Normal {ITEM.LASTVALUE} <p>The humidity is above normal</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}>75 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}<80</p><p>Recovery expression: </p> average
Humidity Below Normal {ITEM.LASTVALUE} <p>The humidity is below normal</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}<=30 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}>25</p><p>Recovery expression: </p> average
Humidity Very Above Normal {ITEM.LASTVALUE} <p>Humidity is too high</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}>=80</p><p>Recovery expression: </p> high
Humidity Very Below Normal {ITEM.LASTVALUE} <p>Humidity is too low</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}<=25</p><p>Recovery expression: </p> high
Input 1 status alarm <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input1.Status[{#SNMPINDEX}].last()}=4 and {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input1.Value[{#SNMPINDEX}].last()}<>1</p><p>Recovery expression: </p> high
Input 2 status alarm <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input2.Status[{#SNMPINDEX}].last()}=4 and {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input2.Value[{#SNMPINDEX}].last()}<>1</p><p>Recovery expression: </p> high
Alarm Leakage Status <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Leakage.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> disaster
Alarm Current Status Phase L1 <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.PhaseL1.Current.Status[{#SNMPINDEX}].last()}<>10</p><p>Recovery expression: </p> high
Alarm Power Status Phase L1 <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.PhaseL1.Current.Status[{#SNMPINDEX}].last()}<>10</p><p>Recovery expression: </p> high
Alarm Voltage Status Phase L1 <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.PhaseL1.Voltage.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Temparture status alarm <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Temperature Above Normal {ITEM.LASTVALUE}°C <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}>=25 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}<26</p><p>Recovery expression: </p> average
Temperature Below Normal {ITEM.LASTVALUE}°C <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}<=15 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}>13</p><p>Recovery expression: </p> average
Temperature Far Below Normal {ITEM.LASTVALUE}°C <p>Temperature too low</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}<=13</p><p>Recovery expression: </p> high
Temperature Very Above Normal {ITEM.LASTVALUE}°C <p>Temperature too high</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}>=26</p><p>Recovery expression: </p> high
PDU has been restartet (uptime < 5m) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:Unit.Energy.Active.Runtime.Value[{#SNMPINDEX}].last()}<5m</p><p>Recovery expression: </p> average
Alarm Unit Power Active Status <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:Unit.Power.Active.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> disaster
{HOST.NAME} $1 <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:Walk-SNMP[{#SNMPVALUE} ({#SNMPINDEX})].str(OK)}<>1</p><p>Recovery expression: </p> disaster
AirFlow Status alarm (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueStrg.Analog.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
PDU has been restartet (uptime < 5m) (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:Unit.Energy.Active.Runtime.Value[{#SNMPINDEX}].last()}<5m</p><p>Recovery expression: </p> average
Alarm Current Status Phase L1 (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.PhaseL1.Current.Status[{#SNMPINDEX}].last()}<>10</p><p>Recovery expression: </p> high
Alarm Power Status Phase L1 (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.PhaseL1.Current.Status[{#SNMPINDEX}].last()}<>10</p><p>Recovery expression: </p> high
Alarm Voltage Status Phase L1 (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.PhaseL1.Voltage.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Input 1 status alarm (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input1.Status[{#SNMPINDEX}].last()}=4 and {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input1.Value[{#SNMPINDEX}].last()}<>1</p><p>Recovery expression: </p> high
Alarm Humidity Status (LLD) <p>The humidity status is not OK</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Humidity Above Normal {ITEM.LASTVALUE} (LLD) <p>The humidity is above normal</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}>75 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}<80</p><p>Recovery expression: </p> average
Humidity Below Normal {ITEM.LASTVALUE} (LLD) <p>The humidity is below normal</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}<=30 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}>25</p><p>Recovery expression: </p> average
Humidity Very Above Normal {ITEM.LASTVALUE} (LLD) <p>Humidity is too high</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}>=80</p><p>Recovery expression: </p> high
Humidity Very Below Normal {ITEM.LASTVALUE} (LLD) <p>Humidity is too low</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}<=25</p><p>Recovery expression: </p> high
Alarm Leakage Status (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Leakage.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> disaster
{HOST.NAME} $1 (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:Walk-SNMP[{#SNMPVALUE} ({#SNMPINDEX})].str(OK)}<>1</p><p>Recovery expression: </p> disaster
Alarm Unit Power Active Status (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:Unit.Power.Active.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> disaster
Climate alarm HIGH {ITEM.LASTVALUE} (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Climate[{#SNMPINDEX}].last()}>=40</p><p>Recovery expression: </p> disaster
Climate alarm {ITEM.LASTVALUE} (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Climate[{#SNMPINDEX}].last()}>=35</p><p>Recovery expression: </p> high
Open door warning (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Access.Status.last()}<>13</p><p>Recovery expression: </p> warning
Temparture status alarm (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Temperature Above Normal {ITEM.LASTVALUE}°C (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}>=25 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}<26</p><p>Recovery expression: </p> average
Temperature Below Normal {ITEM.LASTVALUE}°C (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}<=15 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}>13</p><p>Recovery expression: </p> average
Temperature Far Below Normal {ITEM.LASTVALUE}°C (LLD) <p>Temperature too low</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}<=13</p><p>Recovery expression: </p> high
Temperature Very Above Normal {ITEM.LASTVALUE}°C (LLD) <p>Temperature too high</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}>=26</p><p>Recovery expression: </p> high
Input 2 status alarm (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input2.Status[{#SNMPINDEX}].last()}=4 and {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input2.Value[{#SNMPINDEX}].last()}<>1</p><p>Recovery expression: </p> high

Rittal_PDU 1Phase EN

Description

IT Infrastructure Monitoring.

Overview

Template for Rittal PDU 7955 1-phase (4.4) and 3-pases (5.0) with sensors (temperature, humidity, input, etc.)

Author

RPW

Macros used

There are no macros links in this template.

Name
Template Module ICMP Ping
Template Module Generic SNMP

Discovery rules

Name Description Type Key and additional info
Discovery Analog <p>-</p> SNMP agent cmcIIIVarName.Analog<p>Update: 1h</p>
Discovery Unit Energy <p>-</p> SNMP agent cmcIIIVarName.Unit.Energy<p>Update: 1h</p>
Phase L1 Power <p>-</p> SNMP agent cmcIIIVarName.PhaseL1.Power<p>Update: 1h</p>
Energy Meter 2 <p>-</p> SNMP agent cmcIIIVarName.EnergyMeter2<p>Update: 1h</p>
Phase L1 Energy <p>-</p> SNMP agent cmcIIIVarName.PhaseL1.Energy<p>Update: 1h</p>
Discovery Input 1 <p>-</p> SNMP agent cmcIIIVarName.Input1<p>Update: 1h</p>
Discovery Humidity <p>-</p> SNMP agent cmcIIIVarName.Humidity<p>Update: 1h</p>
Discovery Leakage <p>-</p> SNMP agent cmcIIIVarName.Leakage<p>Update: 1h</p>
Discovery cmsIIIVarName Settings <p>-</p> SNMP agent cmsIIIVarNames.WalkSNMP<p>Update: 1h</p>
Discovery Unit Power <p>-</p> SNMP agent cmcIIIVarName.Unit.Power<p>Update: 1h</p>
Discovery Climate <p>-</p> SNMP agent cmcIIIVarName.Climate<p>Update: 1h</p>
Discovery Access <p>-</p> SNMP agent cmcIIIVarName.Access<p>Update: 1h</p>
Discovery Temperature <p>-</p> SNMP agent cmcIIIVarName.Temperature<p>Update: 1h</p>
Energy Meter 1 <p>-</p> SNMP agent cmcIIIVarName.EnergyMeter1<p>Update: 1h</p>
Discovery Input 2 <p>-</p> SNMP agent cmcIIIVarName.Input2<p>Update: 1h</p>

Items collected

Name Description Type Key and additional info
Serial number <p>-</p> SNMP agent entPhysicalSerialNum<p>Update: 1h</p>
Firmware <p>-</p> SNMP agent entPhysicalSoftwareRev<p>Update: 1h</p>
Analog DescName <p>-</p> SNMP agent cmcIIIVarValueStrg.Analog.DescName[{#SNMPINDEX}]<p>Update: 1h</p><p>LLD</p>
Analog Status - AirFlow <p>-</p> SNMP agent cmcIIIVarValueStrg.Analog.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Unit Energie Custom kWh <p>-</p> SNMP agent Unit.Energy.Active.Custom.Value[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Unit Energie Runtime <p>-</p> SNMP agent Unit.Energy.Active.Runtime.Value[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Unit Energie Active kWh <p>-</p> SNMP agent Unit.Energy.Active.Value[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Phase L1 Current Status <p>-</p> SNMP agent cmcIIIVarValueInt.PhaseL1.Current.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Phase L1 Current Value <p>-</p> SNMP agent cmcIIIVarValueInt.PhaseL1.Current.Value[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Phase L1 Power Active Status <p>-</p> SNMP agent cmcIIIVarValueInt.PhaseL1.Power.Active.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Phase L1 Power Active Value <p>-</p> SNMP agent cmcIIIVarValueInt.PhaseL1.Power.Active.Value[{#SNMPINDEX}]<p>Update: 5m</p><p>LLD</p>
Phase L1 Voltage Status <p>-</p> SNMP agent cmcIIIVarValueInt.PhaseL1.Voltage.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Phase L1 Voltage Value <p>-</p> SNMP agent cmcIIIVarValueInt.PhaseL1.Voltage.Value[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Energy Meter 2 status <p>-</p> SNMP agent cmcIIIVarValueStrg.EnergyMeter2.Status[{#SNMPINDEX}]<p>Update: 10m</p><p>LLD</p>
Energy Meter 2 value <p>-</p> SNMP agent cmcIIIVarValueStrg.EnergyMeter2.Value[{#SNMPINDEX}]<p>Update: 5m</p><p>LLD</p>
L1 Energy Active Custom Value <p>-</p> SNMP agent cmcIIIVarValueInt.L1.Energy.Active.Custom.Value<p>Update: 5m</p><p>LLD</p>
L1 Energy Active Value <p>-</p> SNMP agent cmcIIIVarValueInt.L1.Energy.Active.Value<p>Update: 5m</p><p>LLD</p>
L1 Energy Apparent Value <p>-</p> SNMP agent cmcIIIVarValueInt.L1.Energy.Apparent.Value<p>Update: 5m</p><p>LLD</p>
Input 1.DescName <p>-</p> SNMP agent cmcIIIVarStrg.Input1.DescName[{#SNMPINDEX}]<p>Update: 1h</p><p>LLD</p>
Input 1 Status <p>-</p> SNMP agent cmcIIIVarStrg.Input1.Status[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Input 1 Value <p>-</p> SNMP agent cmcIIIVarStrg.Input1.Value[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Humidity Status <p>-</p> SNMP agent cmcIIIVarValueInt.Humidity.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Humidity Value <p>-</p> SNMP agent cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}]<p>Update: 10m</p><p>LLD</p>
Leakage Status <p>-</p> SNMP agent cmcIIIVarValueInt.Leakage.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
$1 <p>-</p> SNMP agent Walk-SNMP[{#SNMPVALUE} ({#SNMPINDEX})]<p>Update: 1m</p><p>LLD</p>
Unit Power Active Status <p>-</p> SNMP agent Unit.Power.Active.Status[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Unit Power Active Value <p>-</p> SNMP agent Unit.Power.Active.Value[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Climate Status <p>-</p> SNMP agent cmcIIIVarValueInt.Climate[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Door status <p>-</p> SNMP agent cmcIIIVarValueInt.Access.Status<p>Update: 1m</p><p>LLD</p>
Access DescName <p>-</p> SNMP agent cmcIIIVarValueStrg.Access.DescName<p>Update: 1h</p><p>LLD</p>
Temperature Status <p>-</p> SNMP agent cmcIIIVarValueInt.Temperature.Status[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Temperature Value <p>-</p> SNMP agent cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>
Energy Meter 1 status <p>-</p> SNMP agent cmcIIIVarValueStrg.EnergyMeter1.Status[{#SNMPINDEX}]<p>Update: 10m</p><p>LLD</p>
Energy Meter 1 value <p>-</p> SNMP agent cmcIIIVarValueStrg.EnergyMeter1.Value[{#SNMPINDEX}]<p>Update: 5m</p><p>LLD</p>
Input 2.DescName <p>-</p> SNMP agent cmcIIIVarStrg.Input2.DescName[{#SNMPINDEX}]<p>Update: 1h</p><p>LLD</p>
Input 2 Status <p>-</p> SNMP agent cmcIIIVarStrg.Input2.Status[{#SNMPINDEX}]<p>Update: 2m</p><p>LLD</p>
Input 2 Value <p>-</p> SNMP agent cmcIIIVarStrg.Input2.Value[{#SNMPINDEX}]<p>Update: 1m</p><p>LLD</p>

Triggers

Name Description Expression Priority
Open door warning <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Access.Status.last()}<>13</p><p>Recovery expression: </p> warning
AirFlow Status alarm <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueStrg.Analog.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Climate alarm HIGH {ITEM.LASTVALUE} <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Climate[{#SNMPINDEX}].last()}>=40</p><p>Recovery expression: </p> disaster
Climate alarm {ITEM.LASTVALUE} <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Climate[{#SNMPINDEX}].last()}>=35</p><p>Recovery expression: </p> high
Alarm Humidity Status <p>The humidity status is not OK</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Humidity Above Normal {ITEM.LASTVALUE} <p>The humidity is above normal</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}>75 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}<80</p><p>Recovery expression: </p> average
Humidity Below Normal {ITEM.LASTVALUE} <p>The humidity is below normal</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}<=30 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}>25</p><p>Recovery expression: </p> average
Humidity Very Above Normal {ITEM.LASTVALUE} <p>Humidity is too high</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}>=80</p><p>Recovery expression: </p> high
Humidity Very Below Normal {ITEM.LASTVALUE} <p>Humidity is too low</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}<=25</p><p>Recovery expression: </p> high
Input 1 status alarm <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input1.Status[{#SNMPINDEX}].last()}=4 and {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input1.Value[{#SNMPINDEX}].last()}<>1</p><p>Recovery expression: </p> high
Input 2 status alarm <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input2.Status[{#SNMPINDEX}].last()}=4 and {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input2.Value[{#SNMPINDEX}].last()}<>1</p><p>Recovery expression: </p> high
Alarm Leakage Status <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Leakage.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> disaster
Alarm Current Status Phase L1 <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.PhaseL1.Current.Status[{#SNMPINDEX}].last()}<>10</p><p>Recovery expression: </p> high
Alarm Power Status Phase L1 <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.PhaseL1.Current.Status[{#SNMPINDEX}].last()}<>10</p><p>Recovery expression: </p> high
Alarm Voltage Status Phase L1 <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.PhaseL1.Voltage.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Temparture status alarm <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Temperature Above Normal {ITEM.LASTVALUE}°C <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}>=25 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}<26</p><p>Recovery expression: </p> average
Temperature Below Normal {ITEM.LASTVALUE}°C <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}<=15 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}>13</p><p>Recovery expression: </p> average
Temperature Far Below Normal {ITEM.LASTVALUE}°C <p>Temperature too low</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}<=13</p><p>Recovery expression: </p> high
Temperature Very Above Normal {ITEM.LASTVALUE}°C <p>Temperature too high</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}>=26</p><p>Recovery expression: </p> high
PDU has been restartet (uptime < 5m) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:Unit.Energy.Active.Runtime.Value[{#SNMPINDEX}].last()}<5m</p><p>Recovery expression: </p> average
Alarm Unit Power Active Status <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:Unit.Power.Active.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> disaster
{HOST.NAME} $1 <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:Walk-SNMP[{#SNMPVALUE} ({#SNMPINDEX})].str(OK)}<>1</p><p>Recovery expression: </p> disaster
AirFlow Status alarm (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueStrg.Analog.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
PDU has been restartet (uptime < 5m) (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:Unit.Energy.Active.Runtime.Value[{#SNMPINDEX}].last()}<5m</p><p>Recovery expression: </p> average
Alarm Current Status Phase L1 (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.PhaseL1.Current.Status[{#SNMPINDEX}].last()}<>10</p><p>Recovery expression: </p> high
Alarm Power Status Phase L1 (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.PhaseL1.Current.Status[{#SNMPINDEX}].last()}<>10</p><p>Recovery expression: </p> high
Alarm Voltage Status Phase L1 (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.PhaseL1.Voltage.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Input 1 status alarm (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input1.Status[{#SNMPINDEX}].last()}=4 and {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input1.Value[{#SNMPINDEX}].last()}<>1</p><p>Recovery expression: </p> high
Alarm Humidity Status (LLD) <p>The humidity status is not OK</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Humidity Above Normal {ITEM.LASTVALUE} (LLD) <p>The humidity is above normal</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}>75 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}<80</p><p>Recovery expression: </p> average
Humidity Below Normal {ITEM.LASTVALUE} (LLD) <p>The humidity is below normal</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}<=30 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}>25</p><p>Recovery expression: </p> average
Humidity Very Above Normal {ITEM.LASTVALUE} (LLD) <p>Humidity is too high</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}>=80</p><p>Recovery expression: </p> high
Humidity Very Below Normal {ITEM.LASTVALUE} (LLD) <p>Humidity is too low</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Humidity.Value[{#SNMPINDEX}].last()}<=25</p><p>Recovery expression: </p> high
Alarm Leakage Status (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Leakage.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> disaster
{HOST.NAME} $1 (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:Walk-SNMP[{#SNMPVALUE} ({#SNMPINDEX})].str(OK)}<>1</p><p>Recovery expression: </p> disaster
Alarm Unit Power Active Status (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:Unit.Power.Active.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> disaster
Climate alarm HIGH {ITEM.LASTVALUE} (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Climate[{#SNMPINDEX}].last()}>=40</p><p>Recovery expression: </p> disaster
Climate alarm {ITEM.LASTVALUE} (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Climate[{#SNMPINDEX}].last()}>=35</p><p>Recovery expression: </p> high
Open door warning (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Access.Status.last()}<>13</p><p>Recovery expression: </p> warning
Temparture status alarm (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Status[{#SNMPINDEX}].last()}<>4</p><p>Recovery expression: </p> high
Temperature Above Normal {ITEM.LASTVALUE}°C (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}>=25 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}<26</p><p>Recovery expression: </p> average
Temperature Below Normal {ITEM.LASTVALUE}°C (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}<=15 and {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}>13</p><p>Recovery expression: </p> average
Temperature Far Below Normal {ITEM.LASTVALUE}°C (LLD) <p>Temperature too low</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}<=13</p><p>Recovery expression: </p> high
Temperature Very Above Normal {ITEM.LASTVALUE}°C (LLD) <p>Temperature too high</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarValueInt.Temperature.Value[{#SNMPINDEX}].last()}>=26</p><p>Recovery expression: </p> high
Input 2 status alarm (LLD) <p>-</p> <p>Expression: {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input2.Status[{#SNMPINDEX}].last()}=4 and {Rittal_PDU 1Phase EN:cmcIIIVarStrg.Input2.Value[{#SNMPINDEX}].last()}<>1</p><p>Recovery expression: </p> high